Explain mathematically using the diffraction equation why one must use x-rays to see a pattern when...

In an x-ray diffraction experiment, the first order Bragg peak from x-rays scattering from crystal planes...

In an x-ray diffraction experiment, the first order Bragg peak from x-rays scattering from crystal planes parallel to the surface is observed at θ = 34.0. The lattice constant (distance between atoms) is 0.347 nm. (a) (5 pts) What is the wavelength of the x-rays? (b) (5 pts) Suppose there is a set of atoms that form crystal planes that makes an angle of 45 degrees with the surface of the crystal. Using the wavelength from (a), at what angle...

1) For a certain diffraction grating experiment using 500-nm light, the third dark fringe above the...

1) For a certain diffraction grating experiment using 500-nm light, the third dark fringe above the center line occurs at an angle of 30° above the center line. The screen is 6.00m from the slits. Why is this angle larger than the angle for the double-slit experiment above using the same wavelength of light? [Ignore any effects of single-slit diffraction.] Group of answer choices these diffraction grating slits are more closely-spaced these diffraction grating slits are spaced farther apart from...

1.What happened to the patterns when you increased the wavelength of the light? 2.Explain why your...

1.What happened to the patterns when you increased the wavelength of the light? 2.Explain why your answer to #1 occurred. 3.What happens to the diffraction pattern if d is increased? What if d is decreased? 4. Explain your reasoning for 3. Insert screenshots here to prove your point. 5. Name one of effects of diffraction seen in every day of life.

Using one equation explain why resistance training is important for athletic performance

Using one equation explain why resistance training is important for athletic performance

Question:   Scientists also use x-ray generators to produce x-rays used to study the structure of proteins...

Question:   Scientists also use x-ray generators to produce x-rays used to study the structure of proteins and other biological molecules. Two types of anode materials are commonly used in this sort of experiment, and only the characteristic x-rays emitted ordinarily are used. For copper anodes, the characteristic radiation most frequently used is 8.0 keV, and for molybdenum anodes 17.4 keV is used. Aluminum (Z = 13) works well for shielding when the copper anode is used, but scientists must be...

Show for stationary eigenstates of the Schrodinger equation in one dimension. Qualitatively explain why the eigenfunction...

Show for stationary eigenstates of the Schrodinger equation in one dimension. Qualitatively explain why the eigenfunction ψ(x) is smooth, i.e., its first derivative dψ/dx is continuous, even when the potential V (x) has a discontinuity (a finite jump). Hints: use the delta function

Interference with light We aim a red (620 nm) laser onto a small screen that has...

Interference with light We aim a red (620 nm) laser onto a small screen that has two slits that are 0.1 mm apart. Each slit has a width of 0.03 mm. The light coming out of the two slits is projected onto a big screen a distance X from the slits. In the photo on the right you can see the pattern that’s visible on the big screen. Using a ruler, we determine that the distance between two adjacent bright...

x=2−t, y=2t+1; −1≤t≤1 (a) Sketch the parametrized curve using any method, but you must explain your...

x=2−t, y=2t+1; −1≤t≤1 (a) Sketch the parametrized curve using any method, but you must explain your thinking in clear sentences, or show mathematical work. Pay attention to the given domain. (b) Choose one of (i) or (ii) below – only one will be graded. i. Set up and solve an integral for the arc length of this curve OR ii. Calculate the equation of the tangent line to this curve at some point (tell the reader which point you chose!)...

1. A bat uses very high frequencies so: a. He will kill the insects he's hunting...

1. A bat uses very high frequencies so: a. He will kill the insects he's hunting b. We won't hear them c. The sound waves will be small compared to the insects d. The sound waves will be large compared to the insects e. He can tune in to KMET for the weather report 2. Bees see somewhat into the ultraviolet. This is because: a. They use radar b. They can see in the dark c. They evolved with a...

Use C++ in Solving Ordinary Differential Equations using a Fourth-Order Runge-Kutta of Your Own Creation Assignment:...

Use C++ in Solving Ordinary Differential Equations using a Fourth-Order Runge-Kutta of Your Own Creation Assignment: Design and construct a computer program in C++ that will illustrate the use of a fourth-order explicit Runge-Kutta method of your own design. In other words, you will first have to solve the Runge-Kutta equations of condition for the coefficients of a fourth-order Runge-Kutta method.   See the Mathematica notebook on solving the equations for 4th order RK method.   That notebook can be found at...